CN218968839U - Split charging equipment for medicament production - Google Patents

Abstract

The utility model discloses split charging equipment for medicament production, and belongs to the technical field of medicament production. Including base, backup pad, bin, accomodate chamber, partial shipment container and guiding device, base and bin are cylindric setting, and the axial alignment of base and bin sets up, and the backup pad is the semicircle annular setting, and the backup pad sets up between base and bin, and the both ends of backup pad respectively with the relative tip fixed connection of base and bin. In the process of replacing the split charging containers, the flow guiding device can cut off the flow of the medicament to avoid medicament waste, and meanwhile, the replaced split charging containers can use different volumes, so that the degree of freedom of split charging capacity is improved.

Description

Split charging equipment for medicament production

Technical Field

The utility model relates to split charging equipment for medicament production, and belongs to the technical field of medicament production.

Background

The pharmaceutical industry and the biomedical engineering industry are two major posts of modern medicine industry, the biomedical industry is composed of biotechnology industry and medicine industry, the definition and the circumscribing range of the biotechnology industry by each country and each organization are very different, even different views are often different, the biomedical engineering is a general term for comprehensively applying principles and methods of life science and engineering science, realizing the structure, the function and other life phenomena of human body in multiple layers in molecules, cells, tissues, organs and even the whole human body system from the engineering perspective, and researching artificial materials, products, devices and system technologies for disease prevention, treatment, human body function assistance and health care.

In the prior art, in the process of split charging of medicines by biological medicine production or users, medicines are required to be injected into a plurality of medicine bottles with different volumes, if a diversion pipe which can not be closed in advance is used in the process of injection of the medicines, the injection quantity of the medicines can not be controlled, so that the split charging capacity is poor in free adjustment degree, and due to the fact that the volumes of split charging containers are different, the split charging containers can only be replaced quickly when the split charging containers are about to be injected by visual inspection under the condition that the diversion pipe which can not be closed in advance is used, but part of medicines are scattered in the replacement process, so that the medicine is wasted.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the utility model provides a partial shipment equipment for medicament production, it has solved among the prior art, if use the honeycomb duct that can't close in advance to shut off in the medicament injection process then unable control the injection amount of medicament, leads to the degree of freedom of partial shipment capacity to be relatively poor and can cause the problem of medicine waste at the in-process of changing the partial shipment container.

The technical problems to be solved by the utility model are realized by adopting the following technical scheme: the utility model provides a medicament production is with partial shipment equipment, the on-line screen storage device comprises a base, a support plate, the bin, accomodate the chamber, partial shipment container and guiding device, base and bin are cylindric setting, the axial alignment setting of base and bin, the backup pad is the semicircle ring-shaped setting, the backup pad sets up between base and bin, the both ends of backup pad respectively with the relative tip fixed connection of base and bin, the base, backup pad and bin diameter are the same, be provided with in the bin and accomodate the chamber, it is provided with the opening to accomodate the chamber to keep away from the axial one side of base, guiding device sets up in the bin, guiding device and accomodate the chamber intercommunication, guiding device is used for with accomodating the direction of intracavity liquid intermittent type direction base, control the cutting off that link up that liquid flows, partial shipment container is placed in one side and guiding device alignment of base orientation bin.

Through adopting above-mentioned technical scheme, will wait the medicament of partial shipment to get into and accomodate the intracavity, in leading-in partial shipment container through guiding device, change new partial shipment container and place on the base after the partial shipment container fills up, then continue to lead in new partial shipment container with the medicament in to reach the purpose of partial shipment medicament, at the in-process of changing the partial shipment container, guiding device can cut off the flow of medicament and avoid the medicament extravagant, and simultaneously the partial shipment container of change can use different volumes, has improved the degree of freedom adjustment of partial shipment capacity.

The utility model is further provided with: the flow guiding device comprises a butt assembly, a flow guiding channel, an electromagnetic valve and a fixed pipe, wherein the flow guiding channel is arranged at one end of the storage cavity, which faces the base, the electromagnetic valve is fixed at one side end face of the storage box, which faces the base, the flow guiding channel is communicated with the electromagnetic valve, the fixed pipe is positioned on one face of the electromagnetic valve, which faces the flow guiding channel, the flow guiding channel and the fixed pipe are coaxially arranged, and the fixed pipe is communicated with the electromagnetic valve.

Through adopting above-mentioned technical scheme, accomodate in the intracavity medicament passes through the water conservancy diversion passageway and gets into the solenoid valve, then in the fixed pipe inflow partial shipment container, this in-process again, the solenoid valve can be closed or open the water conservancy diversion passageway to reach the purpose that cuts off the medicament flow.

The utility model is further provided with: the butt subassembly includes butt piece, sliding tube and overflow aperture, and the sliding tube setting is kept away from one side of solenoid valve at the fixed pipe, and the sliding tube inserts fixed intraductal edge fixed pipe axial slip, and the butt piece is fixed and is kept away from the one end of fixed pipe at the sliding tube, and the butt piece is located the sliding tube outside, and the butt piece is the tubaeform setting, and the diameter of butt piece orientation fixed pipe is greater than the diameter that the butt piece kept away from the fixed pipe, and the overflow aperture setting is in the junction of sliding tube and butt piece, and the overflow aperture communicates the inside and outside of sliding tube.

Through adopting above-mentioned technical scheme, butt piece lateral surface and partial shipment container open side butt, butt piece extends to partial shipment container inside towards the one end of partial shipment container simultaneously, accomodate the intraductal medicament of intracavity and get into the partial shipment container through water conservancy diversion passageway, solenoid valve, fixed pipe and slip pipe this moment, after the partial invasion partial shipment container of butt piece in the partial shipment container is full, after the butt piece upwards moves, the butt piece pulls out the liquid level decline in the partial shipment container this moment in from the partial shipment container in, thereby avoid the excessive condition that appears the medicament unrestrained when changing the partial shipment container of partial shipment container in the medicament appearance.

The utility model is further provided with: an electric cylinder is fixed on the inner wall of one side of the storage box, which faces the base, an output end is arranged on one side of the electric cylinder, which faces the base, a connecting plate is fixed on the output end of the electric cylinder, and the connecting plate is fixed on the outer side face of the sliding tube.

Through adopting above-mentioned technical scheme, the output drive connecting plate of electric jar is along base axial motion to drive sliding tube along axial motion, thereby can make the motion of butt piece become automated control, after the liquid in the partial shipment container is deposited fully, the butt piece is kept away from the partial shipment container, then changes the partial shipment container, has reduced the step that the manual work removed the butt piece, has improved the efficiency of medicament partial shipment.

The utility model is further provided with: one side of the storage cavity, which is far away from the opening, is fixed with a fixed block, a plurality of diversion holes are arranged in the fixed block, the diversion holes are communicated with the diversion channel, and one end of the diversion holes, which is far away from the diversion channel, penetrates through the fixed block and is communicated with the storage cavity.

Through adopting above-mentioned technical scheme, will follow the water conservancy diversion passageway that accomodates chamber axial extension and shunt through the water conservancy diversion hole, when single water conservancy diversion hole was stopped up, other water conservancy diversion holes still can discharge the medicament, avoid the foreign matter to directly block up the water conservancy diversion passageway and cause the medicament unable outflow.

The utility model is further provided with: be provided with the collecting vat in the base, the opening of collecting vat is the orientation of bin, and the collecting vat is cyclic annular setting, and one side of collecting vat is provided with the drain pipe, and the one end collecting vat intercommunication of drain pipe, the other end of drain pipe extend to the base outside and waste liquid discharge pipeline intercommunication, and the axial position that the outside limit of the maximum diameter of butt piece is located falls into the axial scope of collecting vat parcel.

Through adopting above-mentioned technical scheme, after the medicament is full in the partial shipment container, because of the solenoid valve trouble, can't cut off the medicament this moment, when the medicament continuously lets in the partial shipment container this moment, the medicament can't spill over from the butt department of butt piece and partial shipment container, only flow back to in the slip pipe, and flow into the butt piece inboard through the overflow aperture, finally spill over and flow into the collecting vat in the butt piece after the butt piece fills up, the medicament that gets into in the collecting vat is discharged through the drain pipe, avoid the medicament to spill over from the partial shipment equipment in influencing partial shipment equipment surrounding environment.

The utility model is further provided with: the base is provided with a pressure sensor and a processing control module, the pressure sensor is located in the middle of the base, the pressure sensor is arranged on one side end face of the base facing the storage box, the processing control module is arranged inside the base and is electrically connected with the pressure sensor, and the processing control module is electrically connected with the electromagnetic valve and the electric cylinder respectively.

Through adopting above-mentioned technical scheme, the processing control module can control the break-make of solenoid valve and the start-stop of electric jar, makes the axial motion of butt piece and the outflow of accomodating intracavity medicament can be automatic control, and the user only need change the partial shipment container of arbitrary specification can carry out medicament partial shipment operation, has improved the free partial shipment of the different capacity medicaments that the efficiency of medicament partial shipment satisfies simultaneously.

The beneficial effects of the utility model are as follows:

1. the medicament to be packaged is introduced into the storage cavity through the flow guide device, the new packaging container is replaced after the packaging container is filled, the medicament is placed on the base, and then the medicament is continuously introduced into the new packaging container, so that the aim of packaging the medicament is fulfilled, the flow of the medicament can be cut off by the flow guide device to avoid medicament waste in the process of replacing the packaging container, and meanwhile, different volumes can be used for the replaced packaging container, and the degree of freedom adjustment of the packaging capacity is improved.

2. The butt piece lateral surface and partial shipment container open side butt, the butt piece extends to partial shipment container inside towards the one end of partial shipment container simultaneously, accomodate the intraductal medicament of intracavity and get into partial shipment container through water conservancy diversion passageway, solenoid valve, fixed pipe and slip pipe this moment, after the medicament fills up in the partial shipment container, because the part invasion partial shipment container of butt piece is interior, after the butt piece upwards moves, the butt piece pulls out the liquid level decline in the partial shipment container this moment from the partial shipment container in, thereby avoid the excessive condition that appears the medicament unrestrained when changing the partial shipment container in the partial shipment container.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a cross-sectional view of the structure of the present utility model;

fig. 3 is a schematic structural view of an abutment assembly according to the present utility model.

In the figure: 10. a base; 11. a support plate; 12. a storage box; 13. a storage chamber; 14. a diversion channel; 20. a collection tank; 21. a drain pipe; 22. a pressure sensor; 23. a process control module; 30. a contact piece; 31. a sliding tube; 32. an overflow aperture; 33. an electric cylinder; 34. a connecting plate; 40. a fixed block; 41. a diversion aperture; 42. an electromagnetic valve; 43. a fixed tube; 50. packaging the containers; 60. and a flow guiding device.

Detailed Description

The utility model will be further described with reference to the following detailed drawings, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

As shown in fig. 1-3, a split charging device for producing a medicament comprises a base 10, a support plate 11, a storage box 12, a storage cavity 13, a split charging container 50 and a flow guiding device 60, wherein the base 10 and the storage box 12 are in cylindrical arrangement, the base 10 and the storage box 12 are in axial alignment, the support plate 11 is in semicircular arrangement, the support plate 11 is arranged between the base 10 and the storage box 12, two ends of the support plate 11 are fixedly connected with opposite ends of the base 10 and the storage box 12 respectively, the diameters of the base 10, the support plate 11 and the storage box 12 are the same, the storage box 12 is internally provided with the storage cavity 13, one side of the storage cavity 13, far from the base 10, in the axial direction, is provided with an opening, the flow guiding device 60 is arranged in the storage box 12, the flow guiding device 60 is communicated with the storage cavity 13, the flow guiding device 60 is used for intermittently guiding liquid in the storage cavity 13 to the direction of the base 10, namely, through cutting for controlling liquid flow is controlled, and the split charging container 50 is placed on one side of the base 10, which faces the storage box 12, and is aligned with the flow guiding device 60. The diversion device 60 comprises an abutting assembly, a diversion channel 14, an electromagnetic valve 42 and a fixing pipe 43, wherein the diversion channel 14 is arranged at one end of the storage cavity 13 facing the base 10, the electromagnetic valve 42 is fixed at one side end face of the storage box 12 facing the base 10, the diversion channel 14 is communicated with the electromagnetic valve 42, the fixing pipe 43 is positioned on one face of the electromagnetic valve 42 opposite to the diversion channel 14, the diversion channel 14 and the fixing pipe 43 are coaxially arranged, and the fixing pipe 43 is communicated with the electromagnetic valve 42. The butt subassembly includes butt piece 30, slide pipe 31 and overflow aperture 32, slide pipe 31 sets up in the fixed pipe 43 one side of keeping away from solenoid valve 42, slide pipe 31 inserts in the fixed pipe 43 along fixed pipe 43 axial slip, butt piece 30 is fixed in slide pipe 31 one end of keeping away from fixed pipe 43, butt piece 30 is located slide pipe 31 outside, butt piece 30 is the tubaeform setting, the diameter of butt piece 30 towards fixed pipe 43 is greater than the diameter of butt piece 30 and keeps away from fixed pipe 43, overflow aperture 32 sets up the junction at slide pipe 31 and butt piece 30, overflow aperture 32 communicates slide pipe 31 inside and outside. An electric cylinder 33 is fixed on the inner wall of one side of the storage box 12 facing the base 10, an output end is arranged on one side of the electric cylinder 33 facing the base 10, a connecting plate 34 is fixed on the output end of the electric cylinder 33, and the connecting plate 34 is fixed on the outer side face of the sliding tube 31. The side of the storage cavity 13 far away from the opening is fixed with a fixed block 40, a plurality of diversion holes 41 are arranged in the fixed block 40, the diversion holes 41 are communicated with the diversion channel 14, and one end of the diversion holes 41 far away from the diversion channel 14 penetrates through the fixed block 40 to be communicated with the storage cavity 13. The base 10 is internally provided with a collecting tank 20, the opening of the collecting tank 20 faces the direction of the storage tank 12, the collecting tank 20 is annularly arranged, one side of the collecting tank 20 is provided with a drain pipe 21, one end of the drain pipe 21 is communicated with the collecting tank 20, the other end of the drain pipe 21 extends to the outside of the base 10 and is communicated with a waste liquid discharge pipeline, and the axial position of the outer side edge of the maximum diameter of the abutting piece 30 falls into the axial range wrapped by the collecting tank 20. The base 10 is also provided with a pressure sensor 22 and a processing control module 23, the pressure sensor 22 is positioned in the middle of the base 10, the pressure sensor 22 is arranged on one side end face of the base 10 facing the storage box 12, the processing control module 23 is arranged inside the base 10, the processing control module 23 is electrically connected with the pressure sensor 22, and the processing control module 23 is electrically connected with the electromagnetic valve 42 and the electric cylinder 33 respectively.

The medicament to be packaged is introduced into the storage cavity 13 and is introduced into the packaging container 50 through the flow guiding device 60, when the packaging container 50 is filled, the packaging container 50 is replaced with a new packaging container and is placed on the base 10, and then the medicament is continuously introduced into the new packaging container 50, so that the aim of packaging the medicament is fulfilled, the flow guiding device 60 can cut off the flow of the medicament to avoid medicament waste in the process of replacing the packaging container 50, and meanwhile, the replaced packaging container 50 can use different volumes, and the degree of freedom adjustment of packaging capacity is improved. The medicament in the storage cavity 13 enters the electromagnetic valve 42 through the flow guide channel 14, then flows into the split charging container 50 through the fixing tube 43, and in the process, the electromagnetic valve 42 can close or open the flow guide channel 14, so that the purpose of cutting off the medicament flow is achieved. The outer side of the abutting piece 30 abuts against the opening edge of the sub-packaging container 50, meanwhile, the abutting piece 30 extends to the inside of the sub-packaging container 50 towards one end of the sub-packaging container 50, at the moment, the medicament in the storage cavity 13 enters the sub-packaging container 50 through the flow guide channel 14, the electromagnetic valve 42, the fixed tube 43 and the sliding tube 31, after the medicament in the sub-packaging container 50 is filled, as part of the abutting piece 30 invades the sub-packaging container 50, after the abutting piece 30 moves upwards, the abutting piece 30 is pulled out of the sub-packaging container 50, at the moment, the liquid level in the sub-packaging container 50 drops, and therefore the condition that the medicament in the sub-packaging container 50 is too much and the medicament is scattered when the sub-packaging container 50 is replaced is avoided. The output end of the electric cylinder 33 drives the connecting plate 34 to axially move along the base 10 so as to drive the sliding tube 31 to axially move, so that the movement of the abutting sheet 30 can be changed into automatic control, after the liquid in the split charging container 50 is fully stored, the abutting sheet 30 is far away from the split charging container 50, and then the split charging container 50 is replaced, so that the step of manually moving the abutting sheet 30 is reduced, and the medicament split charging efficiency is improved. The diversion channel 14 extending along the axial direction of the storage cavity 13 is diverted through the diversion holes 41, and when the single diversion hole 41 is blocked, the rest diversion holes 41 can still discharge the medicament, so that the phenomenon that the medicament cannot flow out due to the direct blocking of the diversion channel 14 by foreign matters is avoided. After the sub-packaging container 50 is placed on the pressure sensor 22, the pressure sensor 22 transmits a pressure signal to the processing control module 23, so that the processing control module 23 starts to control the electromagnetic valve 42 to operate, and when the pressure sensor 22 does not transmit the pressure signal, the processing control module 23 cannot control the electromagnetic valve 42 to operate. The processing control module 23 can control the on-off of the electromagnetic valve 42 and the start and stop of the electric cylinder 33, the processing control module 23 can input the single medicament outflow quantity in advance, and the communication time of the electromagnetic valve 42 is controlled to control the medicament flow, so that the axial movement of the abutting piece 30 and the medicament outflow in the accommodating cavity 13 can be automatically controlled, a user can carry out medicament split charging operation only by replacing the split charging container 50 with any specification, and the medicament split charging efficiency is improved while the free split charging of different medicaments with different capacities is satisfied. When the dispensing container 50 is full of the medicament, if the solenoid valve 42 fails, or the capacity of the dispensing container 50 is smaller than the preset medicament discharge amount, the solenoid valve 42 cannot cut off the medicament, and the medicament cannot overflow from the contact position of the contact piece 30 and the dispensing container 50 when the medicament is continuously introduced into the dispensing container 50, and only flows back into the sliding tube 31 and flows into the inner side of the contact piece 30 through the overflow hole 32, finally overflows from the contact piece 30 and flows into the collecting tank 20 after the contact piece 30 is full, and the medicament entering the collecting tank 20 is discharged through the drain pipe 21, so that the influence of the overflow of the medicament from the dispensing equipment on the surrounding environment of the dispensing equipment is avoided.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, but is capable of various changes and modifications without departing from the spirit and scope of the utility model. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a medicament production is with partial shipment equipment, includes partial shipment container (50), its characterized in that: including base (10), backup pad (11), bin (12), accomodate chamber (13) and guiding device (60), base (10) and bin (12) axial alignment set up, backup pad (11) set up between base (10) and bin (12), the both ends of backup pad (11) are provided with in bin (12) accomodate chamber (13) respectively with the relative tip fixed connection of base (10) and bin (12), one side that base (10) was kept away from to accomodate chamber (13) is provided with the opening, guiding device (60) set up in bin (12), guiding device (60) and bin (13) intercommunication, guiding device (60) are used for accomodating the direction of liquid direction base (10) in chamber (13).

2. A dispensing apparatus for producing a pharmaceutical agent according to claim 1, wherein: the guiding device (60) comprises a butt assembly, a guiding channel (14), an electromagnetic valve (42) and a fixing pipe (43), wherein the guiding channel (14) is arranged at one end of the storage cavity (13) facing the base (10), the electromagnetic valve (42) is fixed at one side end face of the storage box (12) facing the base (10), the guiding channel (14) is communicated with the electromagnetic valve (42), the fixing pipe (43) is located on one face of the electromagnetic valve (42) opposite to the guiding channel (14), the guiding channel (14) and the fixing pipe (43) are coaxially arranged, and the fixing pipe (43) is communicated with the electromagnetic valve (42).

3. A dispensing apparatus for producing a pharmaceutical agent according to claim 2, wherein: the butt subassembly includes butt piece (30), slip pipe (31) and overflow aperture (32), slip pipe (31) set up in one side that fixed pipe (43) kept away from solenoid valve (42), slip pipe (31) insert fixed pipe (43) in follow fixed pipe (43) axial slip, the one end that fixed pipe (43) was kept away from at slip pipe (31) is fixed to butt piece (30), butt piece (30) are located slip pipe (31) outside, butt piece (30) are the horn setting, the diameter of butt piece (30) towards fixed pipe (43) is greater than the diameter that fixed pipe (43) was kept away from to butt piece (30), overflow aperture (32) set up the junction at slip pipe (31) and butt piece (30), overflow aperture (32) are with the inside and outside intercommunication of slip pipe (31).

4. A dispensing apparatus for producing a pharmaceutical agent according to claim 3, wherein: an electric cylinder (33) is fixed on the inner wall of one side of the storage box (12) facing the base (10), an output end is arranged on one side of the electric cylinder (33) facing the base (10), a connecting plate (34) is fixed on the output end of the electric cylinder (33), and the connecting plate (34) is fixed on the outer side face of the sliding tube (31).

5. A dispensing apparatus for producing a pharmaceutical agent according to claim 2, wherein: one side of the storage cavity (13) far away from the opening is fixed with a fixed block (40), a plurality of diversion holes (41) are formed in the fixed block (40), the diversion holes (41) are communicated with the diversion channel (14), and one end of the diversion holes (41) far away from the diversion channel (14) penetrates through the fixed block (40) and is communicated with the storage cavity (13).

6. A dispensing apparatus for producing a pharmaceutical agent according to claim 1, wherein: a collecting groove (20) is arranged in the base (10), an opening of the collecting groove (20) faces to the direction of the storage box (12), the collecting groove (20) is annularly arranged, a drain pipe (21) is arranged on one side of the collecting groove (20), one end of the drain pipe (21) is communicated with the collecting groove (20), and the other end of the drain pipe (21) extends to the outside of the base (10).

7. The dispensing apparatus for producing a pharmaceutical agent according to claim 4, wherein: be provided with pressure sensor (22) and processing control module (23) on base (10), pressure sensor (22) are located base (10) middle part, and pressure sensor (22) set up in base (10) towards one side terminal surface of bin (12), and processing control module (23) are built-in base (10), processing control module (23) and pressure sensor (22) electric connection, processing control module (23) respectively with solenoid valve (42) and electric jar (33) electric connection.

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